Effects of Annealing on Coercivity and Magnetization of Terfenol-D Thin Films

Keli Zhao; Peng Pang; Jian Luo; Binghe Ma; Wei Gao; Jinjun Deng

doi:10.1109/TMAG.2023.3237937

Effects of Annealing on Coercivity and Magnetization of Terfenol-D Thin Films

Keli Zhao, Peng Pang, Jian Luo, Binghe Ma, Wei Gao, Jinjun Deng

School of Microelectronics

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Terfenol-D (Tb0.3Dy0.7Fe2) film with low coercivity and high magnetization in weak magnetic fields is essential for its application as a weak magnetic sensor. In this article, an annealing method is proposed to optimize the coercivity and magnetization of the deposited Terfenol-D film. The magnetization could be improved by releasing compressive stress and increasing saturation magnetization. The coercivity decreases and then increases sharply due to partial crystallization with the annealing temperature increasing. The low coercivity of 12.6 Oe and high magnetization at 100 Oe of 0.29 eμg are obtained with the annealing temperature at 525 °C. Further increment in annealing temperature does not contribute to coercivity and magnetization. The annealed film could promote the application of Terfenol-D in weak magnetic sensors.

Original language	English
Article number	2000104
Journal	IEEE Transactions on Magnetics
Volume	59
Issue number	4
DOIs	https://doi.org/10.1109/TMAG.2023.3237937
State	Published - 1 Apr 2023

Keywords

Coercivity
magnetization
Terfenol-D
weak magnetic sensors

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10.1109/TMAG.2023.3237937

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title = "Effects of Annealing on Coercivity and Magnetization of Terfenol-D Thin Films",

abstract = "Terfenol-D (Tb0.3Dy0.7Fe2) film with low coercivity and high magnetization in weak magnetic fields is essential for its application as a weak magnetic sensor. In this article, an annealing method is proposed to optimize the coercivity and magnetization of the deposited Terfenol-D film. The magnetization could be improved by releasing compressive stress and increasing saturation magnetization. The coercivity decreases and then increases sharply due to partial crystallization with the annealing temperature increasing. The low coercivity of 12.6 Oe and high magnetization at 100 Oe of 0.29 eμg are obtained with the annealing temperature at 525 °C. Further increment in annealing temperature does not contribute to coercivity and magnetization. The annealed film could promote the application of Terfenol-D in weak magnetic sensors.",

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author = "Keli Zhao and Peng Pang and Jian Luo and Binghe Ma and Wei Gao and Jinjun Deng",

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T1 - Effects of Annealing on Coercivity and Magnetization of Terfenol-D Thin Films

AU - Zhao, Keli

AU - Pang, Peng

AU - Luo, Jian

AU - Ma, Binghe

AU - Gao, Wei

AU - Deng, Jinjun

PY - 2023/4/1

Y1 - 2023/4/1

N2 - Terfenol-D (Tb0.3Dy0.7Fe2) film with low coercivity and high magnetization in weak magnetic fields is essential for its application as a weak magnetic sensor. In this article, an annealing method is proposed to optimize the coercivity and magnetization of the deposited Terfenol-D film. The magnetization could be improved by releasing compressive stress and increasing saturation magnetization. The coercivity decreases and then increases sharply due to partial crystallization with the annealing temperature increasing. The low coercivity of 12.6 Oe and high magnetization at 100 Oe of 0.29 eμg are obtained with the annealing temperature at 525 °C. Further increment in annealing temperature does not contribute to coercivity and magnetization. The annealed film could promote the application of Terfenol-D in weak magnetic sensors.

AB - Terfenol-D (Tb0.3Dy0.7Fe2) film with low coercivity and high magnetization in weak magnetic fields is essential for its application as a weak magnetic sensor. In this article, an annealing method is proposed to optimize the coercivity and magnetization of the deposited Terfenol-D film. The magnetization could be improved by releasing compressive stress and increasing saturation magnetization. The coercivity decreases and then increases sharply due to partial crystallization with the annealing temperature increasing. The low coercivity of 12.6 Oe and high magnetization at 100 Oe of 0.29 eμg are obtained with the annealing temperature at 525 °C. Further increment in annealing temperature does not contribute to coercivity and magnetization. The annealed film could promote the application of Terfenol-D in weak magnetic sensors.

KW - Coercivity

KW - magnetization

KW - Terfenol-D

KW - weak magnetic sensors

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Effects of Annealing on Coercivity and Magnetization of Terfenol-D Thin Films

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Keywords

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